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ABB semaphore protection overhaul The ABB semaphone protection logic that came with TCS211 from TI was broken in several ways: * Some semaphore-protected functions were called from Application_Initialize() context. NU_Obtain_Semaphore() called with NU_SUSPEND fails with NU_INVALID_SUSPEND in this context, but the return value wasn't checked, and NU_Release_Semaphore() would be called unconditionally at the end. The latter call would increment the semaphore count past 1, making the semaphore no longer binary and thus no longer effective for resource protection. The fix is to check the return value from NU_Obtain_Semaphore() and skip the NU_Release_Semaphore() call if the semaphore wasn't properly obtained. * Some SPI hardware manipulation was being done before entering the semaphore- protected critical section. The fix is to reorder the code: first obtain the semaphore, then do everything else. * In the corner case of L1/DSP recovery, l1_abb_power_on() would call some non-semaphore-protected ABB & SPI init functions. The fix is to skip those calls in the case of recovery. * A few additional corner cases existed, all of which are fixed by making ABB semaphore protection 100% consistent for all ABB functions and code paths. There is still one remaining problem of priority inversion: suppose a low- priority task calls an ABB function, and some medium-priority task just happens to preempt right in the middle of that semaphore-protected ABB operation. Then the high-priority SPI task is locked out for a non-deterministic time until that medium-priority task finishes its work and goes back to sleep. This priority inversion problem remains outstanding for now.
author Mychaela Falconia <falcon@freecalypso.org>
date Mon, 26 Apr 2021 20:55:25 +0000
parents 3a14ee9a9843
children
line wrap: on
line source

/*
+-----------------------------------------------------------------------------
|  Project :  GSM-PS
|  Modul   :  ALR_RACH
+-----------------------------------------------------------------------------
|  Copyright 2002 Texas Instruments Berlin, AG
|                 All rights reserved.
|
|                 This file is confidential and a trade secret of Texas
|                 Instruments Berlin, AG
|                 The receipt of or possession of this file does not convey
|                 any rights to reproduce or disclose its contents or to
|                 manufacture, use, or sell anything it may describe, in
|                 whole, or in part, without the specific written consent of
|                 Texas Instruments Berlin, AG.
+-----------------------------------------------------------------------------
|  Purpose :  This Modul defines the SDL process RACH_Control.
+-----------------------------------------------------------------------------
*/

#ifndef ALR_RACH_C
#define ALR_RACH_C

#define ENTITY_PL

/*==== INCLUDES ===================================================*/
#include <string.h>
#include <stdlib.h>
#include <ctype.h>
#include "typedefs.h"
#include "pconst.cdg"
#include "mconst.cdg"
#include "message.h"
#include "ccdapi.h"
#include "vsi.h"
#include "custom.h"
#include "gsm.h"
#include "prim.h"
#include "cnf_alr.h"
#include "mon_alr.h"
#include "pei.h"
#include "tok.h"
#include "pcm.h"
#ifdef GPRS
#include "alr_gprs.h"
#endif

#include "alr.h"
#include "alr_em.h"

/*==== EXPORT =====================================================*/
/*==== PRIVAT =====================================================*/

/*==== VARIABLES ==================================================*/
#if defined (WIN32)
#define TRACING
#endif

#if defined (TRACING)
#define ALR_TRACE_RACH(a)  ALR_TRACE(a)
#else
#define ALR_TRACE_RACH(a)
#endif

#if defined (TRACING)

#define ALR_TRACE_RACH_CLASS(x)   TRACE_EVENT_P1 ("class %d",x)
#define ALR_TRACE_RACH_POWER(p)   TRACE_EVENT_P1 ("configured power = %d", p)

#else

#define ALR_TRACE_RACH_CLASS(x)
#define ALR_TRACE_RACH_POWER(p)

#endif

/*==== FUNCTIONS ==================================================*/

/*
+--------------------------------------------------------------------+
| PROJECT : GSM-PS (6103)       MODULE  : ALR_RACH                   |
| STATE   : code                ROUTINE : rach_init                  |
+--------------------------------------------------------------------+

  PURPOSE : Initialize RACH Control Process.

*/

GLOBAL void rach_init (void)
{
  alr_data->state[STATE_RA] = RA_NULL;
}

/*
+--------------------------------------------------------------------+
| PROJECT : GSM-PS (6103)       MODULE  : ALR_RACH                   |
| STATE   : code                ROUTINE : rach_configure_class       |
+--------------------------------------------------------------------+

  PURPOSE : Process signal rach_configure_class from SDL process
            Main_Control.

*/
GLOBAL void rach_configure_class (UBYTE ms_class,
                                  UBYTE dcs_class)
{
  /*
   * +1 because of interface difference between RR and TI
   */
  alr_data->rach_data.ms_class     = (UBYTE)(ms_class  + 1);
  alr_data->rach_data.dcs_class    = (UBYTE)(dcs_class + 1);

  ALR_TRACE_RACH_CLASS (alr_data->rach_data.ms_class);
}

/*
+--------------------------------------------------------------------+
| PROJECT : GSM-PS (6103)       MODULE  : ALR_RACH                   |
| STATE   : code                ROUTINE : rach_configure_power       |
+--------------------------------------------------------------------+

  PURPOSE : Process signal rach_configure_power from SDL process
            Main_Control.

*/

GLOBAL void rach_configure_power (UBYTE power)
{
  ALR_TRACE_RACH_POWER(power);

  alr_data->rach_data.max_tx_pwr_ccch     = power;
}
/*
+--------------------------------------------------------------------+
| PROJECT : GSM-PS (6103)       MODULE  : ALR_RACH                   |
| STATE   : code                ROUTINE : rach_stop                  |
+--------------------------------------------------------------------+

  PURPOSE : Process signal rach_stop from SDL process
            Main_Control.
*/

GLOBAL void rach_stop (void)
{
  switch (GET_STATE (STATE_RA))
  {
    case RA_ACTIVE:
      ma_rach_stop_ra_req ();
      /*lint -fallthrough*/
    case RA_LISTEN_TO_CCCH:
      SET_STATE (STATE_RA, RA_NULL);
      break;

    default:
      break;
  }
}


/*
+--------------------------------------------------------------------+
| PROJECT : GSM-PS (6103)       MODULE  : ALR_RACH                   |
| STATE   : code                ROUTINE : rach_random_req            |
+--------------------------------------------------------------------+

  PURPOSE : Process signal rach_random_req from SDL process
            Main_Control.

*/

GLOBAL void rach_random_req (T_MPH_RANDOM_ACCESS_REQ  *random_req)
{
  switch (GET_STATE (STATE_RA))
  {
    case RA_NULL:
      if (random_req->send_mode.no NEQ 0)
      {
        PALLOC (ra_req, MPHC_RA_REQ);

        ALR_EM_START_CONNECTION_ESTABLISHMENT;

        /*
         * Start Random Burst Sending
         */
        memcpy (alr_data->rach_data.delta, random_req->send_mode.delta,
                sizeof (alr_data->rach_data.delta));
        memcpy (alr_data->rach_data.channel_request,
                random_req->send_mode.rach,
                sizeof (alr_data->rach_data.channel_request));
        alr_data->rach_data.max_bursts = random_req->send_mode.no;
        alr_data->rach_data.c_burst = 0;
        /*
         * power limitation
         */
        ra_req->txpwr          = cut_power_value (alr_data->rach_data.max_tx_pwr_ccch, NULL);
        ra_req->powerclass_gsm = alr_data->rach_data.ms_class;
        ra_req->powerclass_dcs = alr_data->rach_data.dcs_class;

        /*
         * Modification: Add 1 to the time of RR !!!!
         */
        ra_req->rand = (UBYTE)(alr_data->rach_data.delta[alr_data->rach_data.c_burst]+1);
        ra_req->channel_request = alr_data->rach_data.channel_request[alr_data->rach_data.c_burst++];
        SET_STATE (STATE_RA, RA_ACTIVE);
        ma_rach_ra_req (ra_req);
      }
      break;

    case RA_ACTIVE:
      if (random_req->send_mode.no EQ 0)
      {

        ALR_EM_STOP_CONNECTION_ESTABLISHMENT;

        SET_STATE (STATE_RA, RA_LISTEN_TO_CCCH);
        ma_rach_stop_ra_req ();
      }
      else
      {
        /*stop to be safe */
        ma_rach_stop_ra_req ();
        {
          PALLOC (ra_req, MPHC_RA_REQ);

          ALR_EM_START_CONNECTION_ESTABLISHMENT;

          /*
           * Start Random Burst Sending
           */
          memcpy (alr_data->rach_data.delta, random_req->send_mode.delta,
                  sizeof (alr_data->rach_data.delta));
          memcpy (alr_data->rach_data.channel_request,
                  random_req->send_mode.rach,
                  sizeof (alr_data->rach_data.channel_request));
          alr_data->rach_data.max_bursts = random_req->send_mode.no;
          alr_data->rach_data.c_burst = 0;
          /*
           * power limitation
           */
          ra_req->txpwr          = cut_power_value (alr_data->rach_data.max_tx_pwr_ccch, NULL);
          ra_req->powerclass_gsm = alr_data->rach_data.ms_class;
          ra_req->powerclass_dcs = alr_data->rach_data.dcs_class;

          /*
           * Modification: Add 1 to the time of RR !!!!
           */
          ra_req->rand = (UBYTE)(alr_data->rach_data.delta[alr_data->rach_data.c_burst]+1);
          ra_req->channel_request = alr_data->rach_data.channel_request[alr_data->rach_data.c_burst++];
          SET_STATE (STATE_RA, RA_ACTIVE);
          ma_rach_ra_req (ra_req);
        } /*PALLOC*/
      } /* if */
      break;
    default:
      break;
  }
}

/*
+--------------------------------------------------------------------+
| PROJECT : GSM-PS (6103)       MODULE  : ALR_RACH                   |
| STATE   : code                ROUTINE : rach_ra_cnf                |
+--------------------------------------------------------------------+

  PURPOSE : Process signal rach_ra_cnf from SDL process
            Main_Control.

*/

GLOBAL void rach_ra_cnf (T_MPHC_RA_CON  *ra_cnf)
{
  UBYTE c_burst = alr_data->rach_data.c_burst-1; /* confirmed index */

  switch (GET_STATE (STATE_RA))
  {
    case RA_ACTIVE:
    {
      PALLOC (random_cnf, MPH_RANDOM_ACCESS_CNF);

      ra_cnf->fn %= 42432L;
#ifdef GPRS
      alr_data->rach_data.t1[c_burst] =
        random_cnf->frame_no.t1=
        (UBYTE)((ra_cnf->fn / 1326) % 32);
      alr_data->rach_data.t2[c_burst] =
        random_cnf->frame_no.t2=
        (UBYTE)(ra_cnf->fn % 26);
      alr_data->rach_data.t3[c_burst] =
        random_cnf->frame_no.t3=
        (UBYTE)(ra_cnf->fn % 51);
#else
      random_cnf->frame_no.t1= (UBYTE)((ra_cnf->fn / 1326) % 32);
      random_cnf->frame_no.t2= (UBYTE)(ra_cnf->fn % 26);
      random_cnf->frame_no.t3= (UBYTE)(ra_cnf->fn % 51);
#endif
      ma_rach_random_cnf (random_cnf);

      c_burst++; /* next index */
      if (c_burst >= alr_data->rach_data.max_bursts)
      {/* last index ? */
        SET_STATE (STATE_RA, RA_LISTEN_TO_CCCH);
        ma_rach_stop_ra_req ();
 #if !defined(TNNN_WITH_TIMER)
        ma_fake_rr_report();
 #endif /* !TNNN_WITH_TIMER */
      }
      else
      {
        PALLOC (ra_req, MPHC_RA_REQ);

        /*
         * power limitation
         */
        ra_req->txpwr          = cut_power_value (alr_data->rach_data.max_tx_pwr_ccch, NULL);
        ra_req->powerclass_gsm = alr_data->rach_data.ms_class;
        ra_req->powerclass_dcs = alr_data->rach_data.dcs_class;

        /*
         * Modification: Add 1 to the time of RR !!!!
         */
        ra_req->rand = (UBYTE)(alr_data->rach_data.delta[c_burst]+1);
        ra_req->channel_request = alr_data->rach_data.channel_request[c_burst];
        ma_rach_ra_req (ra_req);
        alr_data->rach_data.c_burst++; /* the next index */
      }
      break;
    }
    default:
      break;
  }
}



/*
+--------------------------------------------------------------------+
| PROJECT : GSM-PS (6103)       MODULE  : ALR_RACH                   |
| STATE   : code                ROUTINE : cut_power_value            |
+--------------------------------------------------------------------+

  PURPOSE : Cut the nominal maximum output power to the
            associated power class.
            (Reference for the tables with the associated
             power classes, control levels and nominal output power
             is 3GPP TS 05.05, 4.1)

*/

GLOBAL UBYTE  cut_power_value (UBYTE power, T_MPH_DEDICATED_REQ *mph_dedicated_req)
{
  UBYTE new_power = power;
  UBYTE sc_band;

  if(mph_dedicated_req == NULL)
  {
    sc_band = alr_data->sc_band;
  }
  else
  {
    if(mph_dedicated_req->ch_type.h)
      sc_band = get_band(mph_dedicated_req->ch_type.ma[0]);
    else
      sc_band = get_band(mph_dedicated_req->ch_type.arfcn);
  }

  switch (sc_band)
  {
    case BAND_GSM_900:
    case BAND_E_GSM:
    case BAND_GSM_850:
      switch (alr_data->rach_data.ms_class)
      {
        case POW_CLASS_1:    /* doesn´t exist */
        case POW_CLASS_2:    /* power class 2, 8W, 39 dBm, level 0..2 */
          /* highest level allowed => no cut necessary */
          break;
        case POW_CLASS_3:    /* power class 3, 5W, 37 dBm, level 3 */
          if (new_power < 3)
            new_power = 3;
          break;
        case POW_CLASS_4:    /* power class 4, 2W, 33 dBm, level 5 */
          if (new_power < 5)
            new_power = 5;
         break;
        case POW_CLASS_5:    /* power class 5, 0.8W, 29 dBm, level 7 */
          if (new_power < 7)
            new_power = 7;
          break;
      }
      break;
    case BAND_DCS_1800:
      switch (alr_data->rach_data.dcs_class)
      {
        case POW_CLASS_1:    /* power class 1, 1W, 30 dBm, level 0 */
        if (new_power > 28)
          new_power = 0;
          break;
        case POW_CLASS_2:    /* power class 2, 0.25W, 24 dBm, level 3 */
          if (!INRANGE (3, new_power, 28))
            new_power = 3;
          break;
        case POW_CLASS_3:    /* power class 3, 4W, 36 dBm , level 29 */
          /* highest level allowed => no cut necessary */
          break;
      }
      break;
    case BAND_PCS_1900:
      switch (alr_data->rach_data.dcs_class)
      {
        case POW_CLASS_1:    /* power class 1, 1W, 30 dBm, level 0 */
          if (!INRANGE (0, new_power, 15))
            new_power = 0;
          break;
        case POW_CLASS_2:    /* power class 2, 0.25W, 24 dBm, level 3 */
          if (!INRANGE (3, new_power, 15))
            new_power = 3;
          break;
        default:
        case POW_CLASS_3:    /* power class 3, 2W, 33 dBm , level 30 */
          /* highest level allowed => no cut necessary */
          break;
      }
      break;
  }
  return new_power;
}
#endif